Preconditioner for extrusion systems

Abstract

Improved preconditioners (10) are provided for partial moisturization of human food or animal feed ingredients prior to downstream final processing thereof in an extruder (56) or pellet mill. The preconditioner (10) preferably includes an elongated housing (12) having a wall (14) with an inlet (20) and an opposed outlet (22). The housing (12) also has a larger diameter end wall (16) proximal to the inlet (20), a smaller diameter end wall (18) proximal to outlet (22), and a progressively converging housing wall (14) with a taper angle of from about 2-9°. A shaft (36) extends along the length of housing (14) and supports a plurality of outwardly extending mixing elements (46) positioned in axially and circumferentially spaced relationship along the length of the shaft (36). The outer margins (54) of the mixing elements (46) cooperatively define a taper along the length of the housing wall (14). The shaft (36) is designed to operate at high rotational speeds, and the mixing elements (46) may be selectively angularly oriented to retard or increase the flow rate of materials through the preconditioner (10). The simplified preconditioner (10) is operable to provide high degrees of moisturization and precooking.

Description

BACKGROUND OF THE INVENTION[0001]1. Field of the Invention[0002]The present invention is broadly concerned with preconditioners used in conjunction with downstream processing devices, such as extruders or pellet mills, in order to provide a degree of moisturization and precooking of animal feed or human food ingredients. More particularly, the invention is concerned with such preconditioners, and extrusion systems including the preconditioners, wherein the devices are specially designed to provide adequate moisturization of feed ingredients for use with low-capacity, low-cost extruders.[0003]2. Description of the Prior Art[0004]The majority of feed production systems include a preconditioner serving to moisturize and sometimes partially cook the starting feed ingredients (e.g., respective quantities of protein, fat, and starch such as would be found in pet food ingredients). Such preconditioners are mated with downstream processing devices, such as pellet mills or extruders. General...

AI Technical Summary

Benefits of technology

[0013]A principal advantage of the preconditioners of the invention is that, owing to the tapered design thereof coupled with outwardly extending mixing elements, substantial residence times are achieved. That is, the preconditioners are operable to retain feed material therein for a time of from about 0.6-4 minutes, more preferably from about 1-3 minutes. In this way, substantial moisturization of the feed ingredients is obtained, preferably at least about 18% by weight, more preferably from about 20-40%, wet basis. In this regard, it is significant that the mixing shaft of the preconditioner is equipped with outwardly extending mixing elements, preferably in the form of beater or paddle-like devices, which are spaced apart along the length of the shaft and are circumferentially spaced about the periphery thereof. This is to be contrasted with tapered extruder devices equipped with a correspondingly tapered, continuous, helically flighted screw. Such devices do not provide the degree of necessary residence time, because they provide a much more positive conveying action, as compared with spaced apart mixing elements.

Problems solved by technology

Such devices do not provide the degree of necessary residence time, because they provide a much more positive conveying action, as compared with spaced apart mixing elements.

Images